Xanthosine 5'-monophosphate sodium salt (XMP-Na2)

Application Areas

1. Product Overview

XMP-Na₂ (Xanthosine 5'-Monophosphate Disodium Salt) is a purine nucleotide monophosphate derived from xanthosine. It is a key intermediate in purine metabolism, particularly in the synthesis of guanine nucleotides. XMP-Na₂ plays an important role in nucleic acid biosynthesis, enzymatic studies, and biochemical research, making it widely used in pharmaceuticals, diagnostics, and biotechnology.

2. Main Application Fields

1) Pharmaceutical Industry

Drug intermediate: XMP-Na₂ is used in the synthesis of guanine-based drugs and nucleotide analogs.

Metabolic research: Supports studies on purine metabolism, nucleotide conversion, and enzymatic pathways.

Therapeutic development: Applied in research on metabolic disorders, antiviral agents, and enzyme-targeted therapies.

2) Scientific Research

Nucleic acid synthesis studies: XMP-Na₂ serves as a precursor for GMP, GDP, and GTP biosynthesis, essential in molecular biology research.

Enzymology: Used as a substrate or reference compound in studies of XMP dehydrogenase, GMP synthetase, and other purine metabolism enzymes.

Metabolic pathway studies: Applied in research of purine nucleotide metabolism, cell proliferation, and nucleic acid pathways.

3) Diagnostics & Testing Reagents

Enzyme activity assays: Incorporated into kits for XMP-related enzyme activity measurement.

Metabolic pathway analysis: Used as a standard compound in purine metabolism and nucleotide conversion studies.

4) Biotechnology & Applied Fields

Cell-free nucleotide synthesis: XMP-Na₂ is applied in in vitro systems for GMP, GDP, and GTP production.

Synthetic biology: Functions as a nucleotide building block in engineered nucleotide pathways and metabolic engineering.

Biochemical research: Supports studies of nucleotide-dependent enzymes, cell proliferation, and energy metabolism.